KR102555400B1 - Display device and method for displaying image using display device - Google Patents

Abstract

An image display method of a display device according to an embodiment of the present invention includes generating first image data corresponding to a first image displayed in a first region of an image display area, and corresponding to movement information of a preset image. determining a different size of a second region on which a second image is displayed; generating second image data corresponding to the second image based on the first image data; Alternatively, generating a data signal based on the second image data, and emitting light with a luminance corresponding to the data signal.

Description

Display device and its image display method {DISPLAY DEVICE AND METHOD FOR DISPLAYING IMAGE USING DISPLAY DEVICE}

An embodiment of the present invention relates to a display device and an image display method thereof.

Recently, various types of display devices such as an organic light emitting display device, a liquid crystal display device, and a plasma display device are widely used.

When these display devices output a specific image or text for a long time, a specific pixel may deteriorate and cause an afterimage.

In order to solve the above-described problem, a technology (a so-called pixel shift technology) of moving and displaying an image on a display panel at regular intervals has been used. When an image is moved and displayed on a display panel at regular intervals, it is possible to prevent deterioration of a specific pixel by preventing the same data from being output to a specific pixel for a long time.

A technical problem to be achieved by the present invention is to provide a display device capable of effectively preventing the occurrence of afterimages caused by an image that is fixedly displayed in a specific area and a method for displaying the same.

An image display method of a display device according to an embodiment of the present invention includes generating first image data corresponding to a first image displayed in a first region of an image display area, and corresponding to movement information of a preset image. determining a different size of a second region on which a second image is displayed; generating second image data corresponding to the second image based on the first image data; Alternatively, generating a data signal based on the second image data, and emitting light with a luminance corresponding to the data signal.

According to an embodiment, the determining may include determining the second area so that the first image is moved to the second image and displayed corresponding to the movement amount and movement direction of the image included in the movement information.

According to an embodiment, in the determining step, the second area may be determined such that a center of the first area and a center of the second area are formed on the same linear axis.

Depending on the embodiment, the first area may include a larger area than the second area.

Depending on the embodiment, a part of the first area may overlap the second area.

According to an embodiment, a black image may be displayed in an area of the first area that does not overlap with the second area.

Depending on the embodiment, when the first region and the second region have a rectangular shape, the ratio of the horizontal length to the vertical length of each of the first region and the second region may be equal to each other.

Depending on the embodiment, when the first region and the second region have a rectangular shape, the ratio of the horizontal length to the vertical length of the first region and the second region may be different from each other.

Depending on the embodiment, some of the edges surrounding the first area may overlap some of the edges surrounding the second area.

Depending on the embodiment, the method may further include setting a fixed area of the first area using the first image data.

According to an embodiment, in the determining step, at least a part of the image display area excluding the fixed area may be determined as the second area.

According to an embodiment, in the setting step, a previous frame image and a current frame image may be compared to set an area where the image does not change as the fixed area.

A display device according to another embodiment of the present invention provides a display panel including a first area displaying a first image and a second area displaying a second image, and a size of the area of the second area for each frame. an image correction unit that determines differently and generates second image data corresponding to the second image using first image data corresponding to the first image; and based on the first image data or the second image data. and a data driver for generating a data signal.

According to an embodiment, the image correction unit may include a frame data counter that counts the number of times frames are input, and a movement amount and a direction of movement of the image according to preset criteria so that the first image is moved to the second image and displayed. A movement determining unit, a region determining unit determining the first region, and determining the second region corresponding to the movement amount and movement direction of the image, and generating the second image data using the first image data It may include an image data generator that does.

According to an embodiment, the area determiner may determine an area of the second area smaller than an area of the first area.

According to an embodiment, the area determiner may determine the second area such that the second area overlaps at least a portion of the first area.

Depending on the embodiment, the area determiner may determine the second area at the same ratio as the ratio of edges surrounding the first area.

Depending on the embodiment, the area determiner may determine the second area such that some of the edges surrounding the first area and some of the edges surrounding the second area overlap.

According to an embodiment, the area determining unit may set a fixed area of the first area using the first image data, and determine at least a part of the image display area excluding the fixed area as the second area. there is.

According to an embodiment, the display panel may display a black image in the remaining area of the second area when receiving the data signal generated based on the second image data from the data driver.

According to the display device and its image display method of the present invention, it is possible to periodically move an image fixedly displayed in a specific region by determining the size of the second region differently for each frame, and to prevent afterimages occurring in the specific region. can be effectively prevented.

1 is a schematic block diagram of a display device according to an exemplary embodiment of the present invention.
FIG. 2 is a schematic block diagram of an image correction unit shown in FIG. 1 .
3 is a conceptual diagram illustrating an image display area of a display panel according to an embodiment of the present invention.
FIG. 4 is a conceptual diagram illustrating pixels arranged in the image display area shown in FIG. 3 .
5 is a conceptual diagram for explaining an image display method of a display device according to an embodiment of the present invention.
6 is a conceptual diagram for explaining a reduction ratio between a first image and a second image according to an embodiment of the present invention.
7A and 7B are conceptual diagrams for explaining a process in which the center of a first image and a second image are moved corresponding to a reduction ratio according to an embodiment of the present invention.
8 is a conceptual diagram for explaining a method of suppressing afterimage generation by a display device according to another exemplary embodiment of the present invention.
9 is a conceptual diagram for explaining an image display method of a display device according to another embodiment of the present invention.
10 is a flowchart for explaining an image display method of a display device according to an exemplary embodiment of the present invention.

Specific structural or functional descriptions of the embodiments according to the concept of the present invention disclosed in this specification are only illustrated for the purpose of explaining the embodiments according to the concept of the present invention, and the embodiments according to the concept of the present invention It can be embodied in various forms and is not limited to the embodiments described herein.

Embodiments according to the concept of the present invention can apply various changes and have various forms, so the embodiments are illustrated in the drawings and described in detail in this specification. However, this is not intended to limit the embodiments according to the concept of the present invention to specific disclosure forms, and includes all changes, equivalents, or substitutes included in the spirit and scope of the present invention.

Terms such as first or second may be used to describe various components, but the components should not be limited by the terms. The above terms are used only for the purpose of distinguishing one component from another, e.g. without departing from the scope of rights according to the concept of the present invention, a first component may be termed a second component and similarly a second component may be termed a second component. A component may also be referred to as a first component.

Terms used in this specification are used only to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly dictates otherwise. In this specification, terms such as "comprise" or "having" are intended to indicate that there is a feature, number, step, operation, component, part, or combination thereof described in this specification, but one or more other features It should be understood that it does not preclude the possibility of the presence or addition of numbers, steps, operations, components, parts, or combinations thereof.

Unless defined otherwise, all terms used herein, including technical and scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs. Terms such as those defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related art, and unless explicitly defined in this specification, it should not be interpreted in an ideal or excessively formal meaning. don't

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a schematic block diagram of a display device according to an exemplary embodiment of the present invention, and FIG. 2 is a schematic block diagram of an image correction unit shown in FIG. 1 .

Referring to FIGS. 1 and 2 , a display device 10 according to an embodiment of the present invention may include a processor 100 and a display unit 200 .

According to an embodiment, the display device 10 may include a personal computer (PC), a smart phone, a tablet PC, a mobile internet device (MID), an internet tablet, and an internet of things (IoT). ) device, an internet of everything (IoE) device, a desktop computer, a laptop computer, a workstation computer, and a personal digital assistant (PDA), but is not limited thereto.

The processor 100 may generate the first image data DATA1 and a control signal CS for controlling driving of the display unit 200 and supply the generated control signal CS to the display unit 200 .

According to an embodiment, the processor 100 may control the operation of an application processor (AP), a mobile AP, a central processing unit (CPU), a graphic processing unit (GPU), or the display unit 200 . It may be implemented as a processor that can be, but is not limited thereto.

The display unit 200 includes an image corrector 210, a timing controller 220, a data driver 230, a scan driver 240, and a display panel 250. ) may be included.

The image correction unit 210 may generate second image data DATA2 based on the first image data DATA1. Here, the first image data DATA1 is image data corresponding to a first image displayed in a first area of the image display area of the display panel 250, and the second image data DATA2 is a second image data of the image display area. This means image data corresponding to the second image displayed in region 2. And, the second image means an image displayed by moving the first image by pixel shift.

In FIG. 1 , the image corrector 210 is illustrated as being implemented inside the display unit 200 , but according to embodiments, the image corrector 210 is implemented inside the processor 100 or the timing controller 220. can be implemented internally.

The image correction unit 210 includes a frame data counter 212, a shift determiner 214, an area determiner 216, and an image data generator 218. can include

The frame data counter 212 may count the number of inputs of frames based on the first image data DATA1 and generate frame information CI including the number of inputs of the frames.

Depending on the embodiment, the frame data counter 212 may count the number of frame inputs using the control signal CS. For example, the frame data counter 212 may count the number of inputs of frames by determining the number of inputs of the vertical synchronization signal included in the control signal.

The movement determination unit 214 may determine the movement direction and amount of movement of the image using the frame information CI, and generate movement information SI of the image including the determined movement direction and amount of movement of the image. For example, the movement determination unit 214 may determine an x-axis movement direction, a y-axis movement direction, an x-axis movement amount, and a y-axis movement amount of an image in response to the number of input frames.

Depending on the embodiment, the movement determination unit 214 may determine the movement direction and movement amount of the image using a look-up table (not shown) including the movement direction and movement amount of the image set in correspondence with the number of inputs of the frame.

The region determining unit 216 determines a second region where the second image is displayed in correspondence to the movement direction and movement amount of the image included in the movement information (SI) of the image, and determines the region information (AI) for the second region. can create

For example, if the movement information (SI) of the image includes the x-axis movement direction, the x-axis movement amount, the y-axis movement direction, and the y-axis movement amount, the area determiner 216 determines the x-axis movement direction and the x-axis movement amount , the y-axis movement direction, and the y-axis movement amount, it is possible to determine the second region moved from the first region along the x-axis and y-axis directions.

In this case, the area determiner 216 may reduce or enlarge the first area to determine the second area. That is, the second region may include an area smaller or larger than the first region, and at least a portion of each of the first region and the second region may overlap each other.

Also, the region determiner 216 may differently determine the size of the area of the second region for each frame. For example, when the first image data DATA1 of the first frame is provided to the image correction unit 210, the area determiner 216 may determine a second area corresponding to the first area, and may determine the second area of the second frame. When the first image data DATA1 is provided to the image correction unit 210, the area determination unit 216 may determine a second area corresponding to a second area having a different size from the first area.

The image correction unit 210 according to an embodiment of the present invention may adjust the size of an image displayed for each frame to move a fixedly displayed image in a specific area, thereby effectively preventing afterimages from occurring in the specific area. can do.

If the movement information SI of the image includes information not to move the image, the area determiner 216 may generate area information AI for the first area without determining the second area. .

The image data generator 218 generates a second image based on the first image data DATA1 using the area information AI so that the first image displayed in the first area is moved to the second area and displayed as a second image. 2 image data DATA2 may be generated.

According to an embodiment, the image data generator 218 may generate second image data DATA2 in units of pixel lines based on the first image data DATA1. For example, the image correction unit 210 stores the first image data DATA1 provided from the processor 100 in a line memory, and the image data generator 218 reads the first image data DATA1 from the line memory ( read) to generate second image data DATA2 in units of pixel lines.

If the area information AI includes information on the first area, the image data generator 218 does not separately generate second image data DATA2 and uses the first image data DATA1 as the timing control unit. (220).

The timing controller 220 may receive the control signal CS and the first image data DATA1 or the second image data DATA2 from the image corrector 210, and scan using the control signal CS. A control signal SCS and a data control signal DCS may be generated.

The data driver 230 may generate the data signal DS using the first image data DATA1 or the second image data DATA2 provided from the timing controller 220 and the data control signal DCS. The data driver 230 may provide the data signal DS to the pixels through data lines (not shown).

The scan driver 240 may generate the scan signal SS using the scan control signal SCS. The scan driver 240 may provide scan signals SS to pixels through scan lines (not shown).

The display panel 250 includes pixels and may be implemented as an organic light emitting display panel, a liquid crystal display panel, a plasma display panel, or the like. Not limited.

When the scan signal SS is supplied to the scan lines, each of the pixels of the pixel row selected in a horizontal unit can receive the data signal DS from the data line and emit light of a predetermined luminance in response to the data signal DS. can do.

3 is a conceptual diagram illustrating an image display area of a display panel according to an exemplary embodiment of the present invention, and FIG. 4 is a conceptual diagram illustrating pixels arranged in the image display area illustrated in FIG. 3 .

Referring to FIG. 3 , the display panel 250 may include an image display area DA capable of displaying an image. A user of the display panel 250 can view the image displayed in the image display area DA.

The image display area DA may include a plurality of pixels PX emitting light with luminance corresponding to the data signal DS.

Referring to FIG. 4 , the image display area DA may include pixels PXs having an n×m matrix structure. For example, if the resolution of the display panel 250 is 1920×1080, n may be 1920 and m may be 1080.

Each of the pixels may receive the data signal DS generated based on the first image data DATA1 or the second image data DATA2 to emit light with a constant luminance.

5 is a conceptual diagram for explaining an image display method of a display device according to an embodiment of the present invention.

Although FIG. 5 shows the pixels PXs having a 5×5 matrix structure, it is only an example for easily explaining an image displayed by the pixels PXs having an n×m matrix structure shown in FIG. 4 , but is not limited thereto. Also, the first area AR1 shown in FIG. 5 may mean the entire image display area DA, and the second areas AR2a and AR2b may mean parts of the image display area DA.

Referring to FIG. 5 , frame images FRAME 1 to FRAME 5 sequentially displayed in the image display area DA are shown. Each of the frame images FRAME 1 to 5 is displayed corresponding to the data signal DS generated based on the first image data DATA1 or the second image data DATA2.

First, a method of displaying the first frame image FRAME 1 for the first frame will be described. When the image correction unit 210 receives the first image data DATA1 and the control signal CS from the processor 100, the frame data counter 212 uses the control signal (eg, vertical synchronization signal) to 1 It is possible to determine information indicating that the image data DATA1 is the first frame, and to generate frame information CI for the first frame.

If it is determined in advance that the image for the first frame is not moved, the movement determining unit 214 may generate movement information (SI) of the image including non-movement information so that the image is not moved.

The area determiner 216 may generate area information AI for the first area AR1.

The image data generator 218 may supply first image data DATA1 corresponding to the area information AI to the timing controller 220 , and the timing controller 220 may supply the first image data to the data driver 230 . DATA1 may be supplied, and the data driver 230 may provide the data signal DS generated based on the first image data DATA1 to the pixels PX disposed in the first area AR1. there is.

Each of the pixels PX disposed in the first area AR1 may emit light with a luminance corresponding to the data signal DS to display the first image IM1. That is, the first frame image FRAME 1 is the first image IM1 displayed based on the first image data DATA1.

And, a method of displaying the second frame image FRAME 2 for the second frame will be described. When the image correction unit 210 receives the first image data DATA1 and the control signal CS from the processor 100, the frame data counter 212 uses the control signal (eg, vertical synchronization signal) to Information indicating that the 1 image data DATA1 is the second frame may be determined, and frame information CI for the second frame may be generated.

When the image of the second frame is pre-determined to be scaled down and moved by a specific movement amount along a specific movement direction, the movement determining unit 214 generates movement information SI of the image including the movement direction and movement amount. can

The area determining unit 216 determines a second area AR2a by reducing the first area AR1 based on the movement information SI of the image, and determines area information including information on the second area AR2a. (AI) can be created.

The image data generator 218 controls the first image data (IM1) displayed in the first area AR1 to be reduced in the second area AR2a and displayed as the second image IM2a. DATA1) may be used to generate second image data DATA2.

The image data generator 218 may supply the second image data DATA2 to the timing controller 220, and the timing controller 220 may supply the second image data DATA2 to the data driver 230. The data driver 230 may provide the data signal DS generated based on the second image data DATA2 to the pixels PX disposed in the second area AR2a.

Each of the pixels PX disposed in the second area AR2a may emit light with a luminance corresponding to the data signal DS to display the second image IM2a. In this case, the pixels PXs disposed in the remaining area of the first area AR1 that do not overlap with the second area AR2a may display the black image BM. That is, the second frame image FRAME 2 includes the second image IM2a and the black image BM displayed based on the second image data DATA2.

And, a method of displaying the third frame image FRAME 3 for the third frame will be described. When the image correction unit 210 receives the first image data DATA1 and the control signal CS from the processor 100, the frame data counter 212 uses the control signal (eg, vertical synchronization signal) to Information indicating that the 1 image data DATA1 is the third frame may be determined, and frame information CI for the third frame may be generated.

When the image of the third frame is pre-determined to be reduced and moved by a specific movement amount along a specific movement direction, the movement determining unit 214 generates movement information (SI) of the image including the movement direction and movement amount. can

At this time, the movement information (SI) of the image for the third frame includes information different from the movement information (SI) of the image for the second frame. That is, in order to determine the size of the area of the second region differently for each frame, the movement determining unit 214 generates movement information (SI) of the image including information different from that of the previous frame.

The area determination unit 216 determines a second area AR2b by reducing the first area AR1 based on the movement information SI of the image, and determines area information including information on the second area AR2b. (AI) can be created. In this case, the second area AR2b determined in the third frame includes an area of a different size from the second area AR2a determined in the second frame.

The image data generator 218 controls the first image data (IM1) displayed in the first area AR1 to be reduced in the second area AR2b and displayed as the second image IM2b. DATA1) may be used to generate second image data DATA2.

The image data generator 218 may supply the second image data DATA2 to the timing controller 220, and the timing controller 220 may supply the second image data DATA2 to the data driver 230. The data driver 230 may provide the data signal DS generated based on the second image data DATA2 to the pixels PX disposed in the second area AR2b.

Each of the pixels PX disposed in the second area AR2b may emit light with a luminance corresponding to the data signal DS to display the second image IM2b. At this time, the pixels PXs disposed in the remaining area of the first area AR1 that do not overlap with the second area AR2b may display the black image BM. That is, the third frame image FRAME 3 includes the second image IM2b and the black image BM displayed based on the second image data DATA2.

In this way, the pixels can display the fourth frame image (FRAME 4) for the fourth frame and the fifth frame image (FRAME 5) for the fifth frame. The first area AR1 or the second area AR2a to AR2c) and the area where the black image BM is displayed (the area where the first area AR1 and the second area AR2a to AR2c do not overlap) are changed. can

Since the region determining unit 216 according to the embodiment of the present invention may determine the size of the second regions AR2a to AR2c differently for each frame, a black image in a specific region (eg, the second frame image FRAME 2) An image that is fixedly displayed in the area where (BM) is displayed) can be moved.

In addition, the area determiner 216 according to the embodiment of the present invention may overlap some of the edges surrounding the second area AR2a to AR2c with some of the edges surrounding the first area AR1. By determining (AR2a to AR2c), it is possible to move a fixedly displayed image in a specific area (eg, an area where the black image BM is displayed in the second frame image FRAME 2), thereby moving the specific area. The occurrence of afterimages can be effectively prevented.

6 is a conceptual diagram for explaining a reduction ratio between a first image and a second image according to an embodiment of the present invention, and FIGS. 7A and 7B are reductions of the first image and the second image according to an embodiment of the present invention. It is a conceptual diagram to explain the process of moving the center of gravity in response to the ratio.

Referring to FIG. 6 , a first image IM1 of a first frame, a second image IM2a of a second frame, and a second image IM2b of a third frame are illustrated.

A first area AR1 displaying the first image IM1, a second area AR2a displaying the second image IM2a, and a second area AR2b displaying the second image IM2b In the case of the rectangular shape, the horizontal lengths a1, a2, and a3 versus the vertical lengths b1, b2, and b3 of the first area AR1, the second area AR2a, and the second area AR2b, respectively. The proportions may be the same or different.

Referring to FIG. 7A , the ratio of the horizontal length a1 to the vertical length b1 of the first area AR1 and the ratio of the horizontal length a2 to the vertical length b2 of the second area AR2a, When the ratio of the horizontal length a3 to the vertical length b3 of the second area AR2b is the same, the movement of the center according to the movement of the image is shown.

The center C1 of the first image IM1 for the first frame, the center C2 of the second image IM2a for the second frame, and the center C3 of the second image IM2b are the same straight line. It may be formed on the axis AX. That is, the centers of the first area AR1 , the second area AR2a , and the second area AR2b may be formed on the same linear axis AX.

Accordingly, the image for each frame can be moved along the same direction (linear axis direction).

Referring to FIG. 7B , the ratio of the horizontal length a1 to the vertical length b1 of the first area AR1 and the ratio of the horizontal length a2 to the vertical length b2 of the second area AR2a, When the ratio of the horizontal length a3 to the vertical length b3 of the second area AR2b is different from each other, the movement of the center according to the movement of the image is shown.

The center C1 of the first image IM1 for the first frame, the center C2 of the second image IM2a for the second frame, and the center C3 of the second image IM2b are the same straight line. not formed on the axis. That is, the centers of the first area AR1, the second area AR2a, and the second area AR2b are not formed on the same linear axis. Accordingly, images for each frame may be moved in different directions.

8 is a conceptual diagram for explaining a method of suppressing afterimage generation by a display device according to another exemplary embodiment of the present invention.

Referring to FIG. 8 , an image of an operating system of the display device 10 is displayed in the image display area DA. The image may be divided into a first display area AREA1, a second display area AREA2, and a third display area AREA3.

An icon is displayed in the first display area AREA1, and a menu bar is displayed at the bottom of the image. Since icons and menu bars are usually fixedly displayed without change on the image display area DA, the first display area ( A lot of afterimages can occur in AREA1). In addition, since the third display area AREA3 may not be mainly used by the user than the second display area AREA2, more afterimages may occur than the second display area AREA2.

The display device 10 according to another embodiment of the present invention may set an area where the image does not move, such as the first display area AREA1 or the third display area AREA3, as a fixed area in order to suppress the occurrence of afterimages. , At least a portion of the image display area DA excluding the fixed area may be determined as the second area.

According to an embodiment, the display device 10 may compare an image of a previous frame with an image of a current frame and set an area in which the image does not change as a fixed area.

As described above, the display device 10 according to another embodiment of the present invention displays the black image BM in an area set as a fixed area, and reduces the previously displayed image to display a black image in the remaining area of the fixed area among the image display areas. By displaying, it is possible to suppress the occurrence of afterimages in the fixed area.

8 illustrates a method of suppressing afterimage generation by setting a fixed area in the display device 10 according to another exemplary embodiment of the present invention, in the first to third display areas AREA1 to AREA3 exemplarily. ) is only described as an example, but is not limited thereto.

9 is a conceptual diagram for explaining an image display method of a display device according to another embodiment of the present invention.

Since the method of displaying an image of the display device 10 shown in FIG. 9 is similar to the method of displaying an image of the display device 10 described in FIG. 5 , overlapping descriptions will be omitted.

Referring to FIG. 9 , frame images FRAME 1 to FRAME 5 sequentially displayed in the image display area DA are shown. Each of the frame images FRAME 1 to FRAME 5 is displayed corresponding to the data signal DS generated based on the first image data DATA1 or the second image data DATA2.

First, when it is determined in advance that the image for the first frame is not moved, the display device 10 uses the data signal DS generated based on the first image data DATA1 to move the image display area DA. The first image IM1 may be displayed on the front side. Accordingly, the first frame image FRAME 1 is the first image IM1 displayed based on the first image data DATA1.

And, when the image of the second frame is previously determined to be reduced and moved by a specific movement amount along a specific movement direction, the display device 10 determines the second area AR2d corresponding to the movement direction and movement amount, , The second image IM2d may be displayed in the second area AR2d by using the data signal DS generated based on the second image data DATA2. At this time, the remaining area of the first area AR1 that does not overlap with the second area AR2d may display the black image BM. Accordingly, the second frame image FRAME 2 includes the second image IM2d and the black image BM.

And, when it is determined in advance not to move the image for the third frame, the display device 10 uses the data signal DS generated based on the first image data DATA1 to move the image display area DA. The first image IM1 may be displayed on the front side. Accordingly, the third frame image FRAME 3 is the first image IM1 displayed based on the first image data DATA1.

And, when it is determined that the image for the fourth frame is moved according to a movement direction and amount different from the movement direction and amount defined in the second frame, the display device 10 controls the movement direction and amount corresponding to the different movement direction and amount. After determining the second area AR2e, the second image IM2e may be displayed in the second area AR2e by using the data signal DS generated based on the second image data DATA2. In this case, the remaining area of the first area AR1 that does not overlap with the second area AR2e may display the black image BM. Accordingly, the fourth frame image FRAME 4 includes the second image IM2e and the black image BM.

As described above, the display device 10 according to another embodiment of the present invention effectively suppresses the generation of afterimages by periodically changing the area displayed as the black image BM when a plurality of areas generating afterimages exist. can do.

10 is a flowchart for explaining an image display method of a display device according to an exemplary embodiment of the present invention.

Referring to FIG. 10 , the display device 10 according to an embodiment of the present invention determines a first area where a first image is displayed (S100), and generates first image data DATA1 corresponding to the first image. It can be done (S110).

Also, the display device 10 may determine a second area where the second image is displayed in a different size for each frame (S120).

Also, the display device 10 may generate second image data DATA2 corresponding to the second image based on the first image data DATA1 (S130).

Also, the display device 10 may generate the data signal DS based on the first image data DATA1 or the second image data DATA2 (S140).

Also, the display device 10 may emit light from the pixels PX with luminance corresponding to the data signal DS ( S150 ).

Although the present invention has been described with reference to the embodiments shown in the drawings, this is only exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the attached claims.

10: display device 100: processor
200: display unit 210: image correction unit
220: timing controller 230: data driver
240: scan driver 250: display panel

Claims (20)

generating first image data corresponding to a first image displayed in a first area of an image display area;
determining differently the size of the area of a second region in which a second image is displayed corresponding to preset movement information of the image;
generating second image data corresponding to the second image based on the first image data so that the first image is scaled down and shifted to the second area to be displayed as the second image;
generating a data signal based on the first image data or the second image data; and
and emitting light with a luminance corresponding to the data signal. The method of claim 1, wherein the determining step,
An image display method of a display device that determines the second area so that the first image is moved to the second image and displayed corresponding to the movement amount and movement direction of the image included in the movement information. The method of claim 2, wherein the determining step,
The image display method of the display device, wherein the second area is determined such that a center of the first area and a center of the second area are formed on the same linear axis. According to claim 1,
The image display method of the display device, wherein the first area includes a larger area than the second area. According to claim 1,
A method of displaying an image of a display device in which a portion of the first area overlaps the second area. According to claim 5,
An image display method of a display device displaying a black image in an area of the first area that does not overlap with the second area. According to claim 1,
When the first region and the second region have a rectangular shape, the ratio of the horizontal length to the vertical length of each of the first region and the second region is equal to each other. According to claim 1,
When the first area and the second area have a rectangular shape, the ratio of the horizontal length to the vertical length of the first area and the second area is different from each other. According to claim 1,
Some of the edges surrounding the first area overlap some of the edges surrounding the second area. According to claim 1,
The method of displaying an image of a display device further comprising setting a fixed area of the first area by using the first image data. 11. The method of claim 10, wherein the determining step,
An image display method of a display device that determines at least a portion of the image display area excluding the fixed area as the second area. The method of claim 10, wherein the setting step,
An image display method of a display device that compares a previous frame image with a current frame image and sets an area in which the image does not change as the fixed area. a display panel including a first area displaying a first image and a second area displaying a second image;
The size of the area of the second region is determined differently for each frame, and the first image data corresponding to the first image is used so that the first image is scaled down and shifted to the second region to be displayed as the second image. an image compensator for generating second image data corresponding to the second image; and
and a data driver configured to generate a data signal based on the first image data or the second image data. The method of claim 13, wherein the image correction unit,
a frame data counter that counts the number of inputs of frames;
a movement determining unit that determines a movement amount and a movement direction of an image according to a preset criterion so that the first image is moved to the second image and displayed;
an area determiner configured to determine the first area and to determine the second area corresponding to the amount and direction of movement of the image; and
and an image data generator configured to generate the second image data using the first image data. The method of claim 14, wherein the region determining unit,
The display device of claim 1 , wherein an area of the second area is smaller than an area of the first area. The method of claim 14, wherein the region determining unit,
The display device determining the second area such that the second area overlaps at least a portion of the first area. The method of claim 14, wherein the region determining unit,
The display device determining the second area at the same ratio as the ratio of edges surrounding the first area. The method of claim 14, wherein the region determining unit,
The display device determines the second area such that some of the edges surrounding the first area and some of the edges surrounding the second area overlap. The method of claim 14, wherein the region determining unit,
A display device configured to set a fixed area in the first area using the first image data, and determine at least a part of the image display area excluding the fixed area as the second area. The method of claim 14, wherein the display panel,
A display device displaying a black image in a remaining area of the second area when receiving the data signal generated based on the second image data from the data driver.

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